KR100406040B1 - reparation structure for temperature difference between top and bottom in storage of kim-chi refrigerator - Google Patents

Abstract

The present invention relates to a structure for compensating the up and down temperature deviation in a kimchi storage compartment, and attaching an insulating member to the inner surface of the inner case near the evaporation tube installed at the upper end of the inner case of the kimchi storage compartment to reduce the heat transfer amount at the contact point of the evaporation tube. Therefore, the temperature difference between the upper and lower parts of the storage compartment may be increased by increasing the heat absorption capacity of the inner case surface far away from the evaporator tube so that the temperature of the upper part may be lower than the lower part of the storage compartment. It provides a structure for compensating the up and down temperature deviation in the Kimchi storage room.

Description

Compensation structure for temperature difference between top and bottom in storage of kim-chi refrigerator}

The present invention relates to a structure for compensating up and down temperature deviation in a kimchi storage compartment, and more particularly, by attaching an insulating member on an inner surface of an inner case near an evaporation tube installed at an upper end of the inner case of the kimchi storage compartment. It reduces heat transfer and increases the heat absorption capacity of the inner case surface relatively far away from the evaporator tube so that the temperature of the upper part can be lower than the lower part of the storage compartment, so that the temperature between the upper part and the lower part of the storage compartment is lower. The present invention relates to a structure for compensating the up and down temperature deviation in a kimchi storage room that can prevent the temperature deviation from occurring.

In general, a refrigerator is a type of air conditioner. As for the cooling cycle, a gaseous refrigerant compressed at high temperature and high pressure in a compressor loses heat as it becomes a liquid refrigerant due to high pressure while passing through a condenser. The refrigerant at low temperature and high pressure is brought into a low temperature and high pressure state, and then the refrigerant at low temperature and low pressure is vaporized while passing through the evaporator to take away heat from the surroundings. Through the process of moving to the condenser through the condensation to perform the cooling continuously.

As it is well known, recently, Kimchi storage has been developed for the sake of kimchi, which allows the kimchi to be matured and freshly stored using the principle of the refrigerator. After ripening, it maintains the proper temperature to preserve the taste of ripe kimchi for a long time.

Figure 1 is a longitudinal sectional view showing the internal structure of a conventional kimchi storage, and Figure 2 is an enlarged view showing the evaporation tube installation portion of the conventional kimchi storage.

Looking at the configuration of the conventional kimchi storage in the prior art, the storage room 3 is provided inside the kimchi storage body 6, the door (5) to open and close upwards to open and close the storage room (3) the main body (6) It is hinged to the top of the back.

In addition, a lower side of the storage compartment (3) is divided into a mechanical chamber 14, in which a compressor (2) and a condenser, etc., for cooling cycles are arranged, and a heat insulating material (4) is provided at a portion requiring heat insulation inside the main body (6). It is possible to get a thermal insulation effect by putting a lamp.

In addition, an evaporation tube 7 and a heating wire 8 are installed outside the inner case 10 of the storage chamber 3 to supply cold air or heat to the storage chamber 3.

At this time, the evaporation tube (7) and the heating wire (8) is installed while wrapping the outer surface of the inner case (10).

As shown in FIG. 2, in the structure in which the evaporation tube 7 is installed in the conventional storage chamber, the evaporation tube 7 having a cylindrical tube shape is closely adhered to the outer surface of the inner case 10 of the storage chamber 3 having a flat shape. It is installed in point contact.

In the enlarged part of the dotted line in the figure, the distribution of the heat transfer amount Q is shown in the vicinity of the inner case 10 which the evaporator tube 7 is in contact with.

As shown in the figure, the temperature drop occurs locally at the point where the evaporation tube 7 is in point contact, and the heat transfer amount Q absorbed from the inside of the storage compartment 3 to the inner case 10 surface is increased. As the distance from the point-contacting part increases, the heat transfer amount Q decreases.

However, according to the structure in which the evaporation tube 7 is conventionally installed on the outer surface of the inner case 10 as described above, the temperature distribution in the storage chamber 3 is stored in a low temperature heavy air with a high density due to convection. The lower part of (3) descends, and the hot light air having a low density circulates to the upper part of the storage chamber 3 so that the upper temperature in the storage chamber 3 becomes higher than the lower temperature as a whole so that the upper and lower temperature deviations occur.

Accordingly, the food stored in the upper portion of the storage compartment 3 has a problem that the period of maintaining the freshness is shorter than the food stored in the lower portion.

Accordingly, the present invention has been made to solve the above problems, an object of the present invention is to attach a heat insulating member on the inner surface of the inner case near the evaporation tube installed in the upper end of the inner case of the kimchi storage compartment to heat transfer at the contact point of the evaporation tube The amount of heat is reduced and the heat absorption capacity of the inner case surface relatively far upward from the evaporator tube is increased so that the temperature of the upper part can be lower than the lower part of the storage compartment so that the temperature between the upper part and the lower part of the storage compartment is lower. It is to provide a structure for compensating the vertical deviation of the kimchi storage room to prevent deviation from occurring.

1 is a longitudinal sectional view showing the internal structure of a conventional kimchi storage,

Figure 2 is an enlarged view showing an evaporation tube installation portion of the conventional kimchi storage room,

Figure 3 is an enlarged view showing the evaporation tube installation portion of the kimchi storage room according to an embodiment of the present invention,

4 and 5 are enlarged views of the evaporation tube installation portion of the kimchi storage compartment according to another embodiment of the present invention, respectively;

6 is a diagram illustrating a heat transfer amount distribution near an inner case in which the evaporation tube of FIG. 3 is in contact.

* Description of the symbols for the main parts of the drawings *

3: storage room 7: evaporation tube

6: body 10: inner case

30,40,50: Insulation member

The present invention for achieving the above object, in the structure to cool the inside of the storage chamber is installed in the evaporation tube outside the inner case of the kimchi storage room,

It provides a structure for compensating the upper and lower temperature deviation in the kimchi storage compartment characterized in that the insulating member is attached to the inner surface of the inner case near the evaporation tube installed at the upper end of the inner case.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is an enlarged view showing the evaporation tube installation portion of the kimchi storage compartment according to an embodiment of the present invention.

As shown in the figure, according to the structure of the compensation of the vertical temperature difference in the storage compartment of the kimchi storage according to an embodiment of the present invention, the thermal conductivity (thermal conductivity) on the inner surface of the inner case 10 near the evaporation tube (7) installed at the upper end ) Is coated a thin material, that is, the heat insulating member 30.

The heat insulating member 30 may be made of a material such as plastic, ceramic, graphite, and the like. In addition, a material having a lower thermal conductivity than that of the inner case 10 may be used.

4 and 5 are enlarged views of the evaporation tube installation portion of the kimchi storage compartment according to another embodiment of the present invention.

First, as shown in Figure 4, the heat insulating member 40 on the inner surface of the inner case 10 near the evaporation tube 7 installed on the upper end by a method for attaching the heat insulating member 40 according to another embodiment of the present invention Will simply bond.

At this time, the heat insulating member 40 is adhered to the inner surface of the inner case 10 using an adhesive or heat is applied to one side of the heat insulating member 40 on the inner surface of the inner case 10 in a molten state. Conventional bonding methods such as pressing and bonding may be used.

As shown in FIG. 5, the protrusion 10a is formed by protruding a predetermined portion of the inner case 10 near the evaporation tube 7 installed at the upper end by another method of attaching the heat insulating member 50 to the outside. ) Is made so that the heat insulating member 50 is inserted into and inserted into the insertion groove made in the protrusion 10a.

The outer surface of the protrusion 10a is preferably formed in a flat shape so that the evaporation tube can be contacted and installed.

At this time, it is preferable that the inner surface of the inner case 10 is flat and smooth so that the heat insulating member 50 is inserted into a size that fits perfectly into the insertion groove formed in the protrusion 10a.

Hereinafter, the operation and effects of the present invention will be described in detail.

FIG. 6 is a diagram illustrating a heat transfer amount distribution near an inner case in which the evaporating tube of FIG. 3 is in contact.

As described above, according to the structure for compensating the up and down temperature difference in the storage compartment of the kimchi storage according to the present invention, the heat insulating member 30 on the inner surface of the inner case 10 near the evaporation tube 7 installed at the upper end of the inner case 10. 40, 50).

At this time, the heat insulating members 30, 40, 50 may be thinly coated on the inner surface of the inner case 10 or attached by a simple adhesive method, or a predetermined portion of the inner case 10 near the evaporation tube 7 may be attached. Protruding to the outside may be configured to form a protrusion (10a) and the heat insulating member (30, 40, 50) can be inserted into the insertion groove made in the interior of the protrusion (10a).

The outer surface of the protrusion 10a is preferably formed in a flat shape so that the evaporation tube 7 can be contacted and installed.

In this configuration, as shown in FIG. 6, when the refrigerant flows through the evaporation tube 7, a temperature drop occurs in the inner case 10 which is in contact with the evaporation tube 7.

In addition, heat is absorbed by the convective heat transfer from the inside of the storage compartment 3 to the inner case 10 surface, so that the inside of the storage compartment 3 is kept at a low temperature. The heat transfer amount Q from the inside to the inner case 10 surface is reduced.

Therefore, the heat transfer amount Q from the inside of the storage compartment 3 to the surface of the inner case 10 is relatively increased in a part farther upward from the portion of the inner case 10 that the evaporating tube 7 is in contact with.

That is, the heat absorbing capacity increases on the surface of the inner case 10 away from the evaporation tube 7 so that the temperature of the upper portion is lower than that of the lower portion of the storage chamber 3, so that the upper and lower portions of the storage chamber 3 are lower. It is possible to reduce the occurrence of the temperature deviation in the.

At this time, when the width from the upper end to the lower end of the heat insulating members 30, 40, 50 attached on the inner surface of the inner case 10 near the evaporation tube 7 is too small, the temperature of the upper part of the storage compartment 3 is low. It is not possible to expect a sufficient effect to achieve this, and on the contrary, if the width from the top to the bottom is too large, the effect of increasing the heat absorption capacity on the surface of the inner case 10 away from the evaporation tube 7 is significantly reduced. do.

Therefore, it is preferable that the width H from the upper end to the lower end of the heat insulating members 30, 40, and 50 have an arbitrary value selected within the range of 3 times to 30 times the inner case thickness t. H <30t)

As described above, according to the structure of compensating the up and down temperature deviation in the kimchi storage room according to the present invention, the heat transfer member is attached to the inner surface of the inner case near the evaporation tube installed at the upper end of the inner case of the kimchi storage room by heat transfer at the contact portion of the evaporation pipe. The amount between the top and bottom of the storage compartment can be reduced by reducing the amount and increasing the heat absorption capacity of the inner case surface relatively far away from the evaporator tube so that the temperature of the top can be lower than the bottom of the storage compartment. There is an effect that can prevent the occurrence of deviation.

Claims (4)

In the structure of cooling the inside of the storage chamber by installing an evaporation tube outside the inner case of the kimchi storage room, Upper and lower temperature deviations in the storage compartment of the Kimchi storage room, characterized in that an insulating member having an arbitrary length selected within a range of 3 to 30 times the thickness of the inner case is attached on the inner surface of the inner case near the evaporation tube installed at the upper end of the inner case. Compensation structure. The method of claim 1, Compensation structure of the up and down temperature difference in the storage room of the kimchi storage, characterized in that the insulating member is coated on the inner surface of the inner case. The method of claim 1, Compensation structure of the up and down temperature difference in the storage room of the Kimchi storage, characterized in that the insulating member is attached to the inner surface by attaching. The method of claim 1, In the storage room of the Kimchi storage room, characterized in that the inner part of the inner case near the evaporation tube installed in the inner case is formed with a protrusion projecting a predetermined portion to the outside, and inserting the heat insulating member in the insertion groove inside the protrusion. Upper and lower temperature deviation compensation structure.